TW523727B - Display device - Google Patents
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- TW523727B TW523727B TW089106409A TW89106409A TW523727B TW 523727 B TW523727 B TW 523727B TW 089106409 A TW089106409 A TW 089106409A TW 89106409 A TW89106409 A TW 89106409A TW 523727 B TW523727 B TW 523727B
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- 239000000463 material Substances 0.000 claims description 31
- 239000004973 liquid crystal related substance Substances 0.000 claims description 13
- 230000005540 biological transmission Effects 0.000 claims description 12
- 239000004988 Nematic liquid crystal Substances 0.000 claims description 9
- 230000005684 electric field Effects 0.000 claims description 7
- 239000000758 substrate Substances 0.000 claims description 6
- 230000007704 transition Effects 0.000 claims description 3
- QCWXUUIWCKQGHC-UHFFFAOYSA-N Zirconium Chemical compound [Zr] QCWXUUIWCKQGHC-UHFFFAOYSA-N 0.000 claims 2
- 229910052726 zirconium Inorganic materials 0.000 claims 2
- 241000283973 Oryctolagus cuniculus Species 0.000 claims 1
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- 238000000034 method Methods 0.000 abstract description 5
- 230000006870 function Effects 0.000 description 8
- 239000010410 layer Substances 0.000 description 8
- HVYWMOMLDIMFJA-DPAQBDIFSA-N cholesterol Chemical compound C1C=C2C[C@@H](O)CC[C@]2(C)[C@@H]2[C@@H]1[C@@H]1CC[C@H]([C@H](C)CCCC(C)C)[C@@]1(C)CC2 HVYWMOMLDIMFJA-DPAQBDIFSA-N 0.000 description 6
- 230000004044 response Effects 0.000 description 5
- 230000001133 acceleration Effects 0.000 description 4
- 239000007788 liquid Substances 0.000 description 4
- 230000008859 change Effects 0.000 description 3
- 230000003098 cholesteric effect Effects 0.000 description 3
- 235000012000 cholesterol Nutrition 0.000 description 3
- 239000011159 matrix material Substances 0.000 description 3
- KDLHZDBZIXYQEI-UHFFFAOYSA-N Palladium Chemical compound [Pd] KDLHZDBZIXYQEI-UHFFFAOYSA-N 0.000 description 2
- 230000008901 benefit Effects 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 230000005693 optoelectronics Effects 0.000 description 2
- 241000272525 Anas platyrhynchos Species 0.000 description 1
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Classifications
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G3/00—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
- G09G3/20—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters
- G09G3/34—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source
- G09G3/36—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source using liquid crystals
-
- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G3/00—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
- G09G3/20—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters
- G09G3/34—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source
- G09G3/36—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source using liquid crystals
- G09G3/3611—Control of matrices with row and column drivers
- G09G3/3622—Control of matrices with row and column drivers using a passive matrix
- G09G3/3629—Control of matrices with row and column drivers using a passive matrix using liquid crystals having memory effects, e.g. ferroelectric liquid crystals
-
- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G3/00—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
- G09G3/20—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters
- G09G3/34—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source
- G09G3/36—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source using liquid crystals
- G09G3/3611—Control of matrices with row and column drivers
- G09G3/3622—Control of matrices with row and column drivers using a passive matrix
- G09G3/3625—Control of matrices with row and column drivers using a passive matrix using active addressing
-
- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G2300/00—Aspects of the constitution of display devices
- G09G2300/04—Structural and physical details of display devices
- G09G2300/0469—Details of the physics of pixel operation
- G09G2300/0478—Details of the physics of pixel operation related to liquid crystal pixels
- G09G2300/0482—Use of memory effects in nematic liquid crystals
- G09G2300/0486—Cholesteric liquid crystals, including chiral-nematic liquid crystals, with transitions between focal conic, planar, and homeotropic states
-
- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G2310/00—Command of the display device
- G09G2310/06—Details of flat display driving waveforms
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Crystallography & Structural Chemistry (AREA)
- Physics & Mathematics (AREA)
- Computer Hardware Design (AREA)
- General Physics & Mathematics (AREA)
- Theoretical Computer Science (AREA)
- Control Of Indicators Other Than Cathode Ray Tubes (AREA)
- Liquid Crystal Display Device Control (AREA)
- Liquid Crystal (AREA)
Abstract
Description
523727 五、發明說明(1) 本發明關於一顯示裝置,其含備有列電極之第一基體, 及備有行電極之第二基體’其中行與列電極與光電材料之 席間層重疊部分,構成像點,該光電層包含對掌向列液晶 材料,其能單任許多狀態,其中至少一聚焦-圓錐狀態及 平面狀悲在無電場時為穩定的,尚包含驅動裝置用以由遥 擇信號驅動列電極,及以資料信號驅動行電極,以適應顯 示之影像。 一般而言,本發明關於一顯示裝置,其中之光電層可在 許多(持久)穩定狀態中交換。根據二穩定狀態(或更多)之 顯示裝置可應用於許多應用中,例如當寫入資料應予長期 保存時(電子新聞,電話,精靈卡,電子價格標籤,個人 數位協助,廣告牌等)。 在此等顯示裝置中之一像點,根據對掌向列液晶材料, 像點具有許多穩定狀態,即光透射狀態,與液晶材料之一 層之聚焦錐體狀態對應,及一反射狀態與液晶材料一層之 平面狀態對應。反射光之顏色(波長)與液晶材料之節距有 關,即一距離,在該距離中導向器(在一層中分子之平均 方向)作3 6 0度扭轉。在無電場時,二種狀態均可在長時期 |穩定。在光透射狀態中,該顏色之光通過一較大或較小之 I程度,與織構有關(平面中像點部份與聚焦錐體狀態間之 | 比值)。此外,此種顯示裝置可能有所謂同向狀態;在高 壓時所有分子(導向器)將其本身導向至電場。入射光於是 |以然阻礙方式通過液晶材料’當不用偏光為使用時’反射 j I性顯示裝置之同向狀態中之顏色由背景光,如一吸收層決 523727 五、發明說明(2) 定。顯示裝置通常僅達到此狀態以可達二穩定狀態之一。 視所用之頻率及交換脈波之電壓而定,像點改變為聚焦圓 錐或平面狀態。 寫入不同狀態之選擇時間(尋址時間)通常為太長。如無 特殊方法,此時間為2 0 -3 0 ms,對電子新聞而言,此乃太 長之時間。 ”供雙穩定膽固醇顯示之動態驅動;迅速尋址方案〃刊於 S I D 9 5文摘,3 4 7頁之一文中,說明如何使達到不同狀態 之尋址時間可利用一準備階段與演進階段,以特殊驅動模 式使其降低。 本發明之一特別目的為降低選擇時間。為此目的,本發 明之裝置之特徵為在作業狀態時,驅動裝置在選擇期間, 順序提供數組P(P>1)列電極以正交之信號。 利用正交信號以驅動(超)扭曲向列顯示裝置甚為知名, 以防止幀響應現象。與傳統單一線尋址不同,同時選擇數 列。此需要對進入信號之特別處理,進入信號必須以數學 方式處理,以決定行電極之正確信號。該幀響應現象在幀 時間與液晶材料之響應時間,在比例上太長時發生。像點 之傳送不再由許多連續選擇中之有效電壓值定,而跟隨出 現之電壓模式至較大或較小程度。在正交驅動時,驅動信 號適於一方式,即每一像點在每一幀期間被驅動數次。傳 送仍由數連續選擇中之有效電壓值決定。當用於上述之對 掌向列液晶材料之應用時(電子新聞’電話’精靈卡及電 子價格標籤),其中,資訊被寫入一次後,驅動電壓即被523727 V. Description of the invention (1) The present invention relates to a display device including a first substrate provided with a column electrode and a second substrate provided with a row electrode, wherein the overlap between the row and column electrodes and the interlayer of the photovoltaic material It constitutes an image point. The optoelectronic layer contains a pair of palm nematic liquid crystal materials, which can be used in many states. Among them, at least one of the focus-cone state and the planar state is stable in the absence of an electric field. It also includes a driving device for remote control. Select signals to drive column electrodes and data signals to drive row electrodes to fit the displayed image. Generally speaking, the present invention relates to a display device in which the photovoltaic layer can be exchanged in many (persistent) stable states. Display devices based on two stable states (or more) can be used in many applications, such as when writing data should be stored for a long time (electronic news, telephone, elf cards, electronic price tags, personal digital assistance, billboards, etc.) . According to the palm nematic liquid crystal material, an image point in these display devices has many stable states, that is, a light transmission state, corresponding to a focusing cone state of one layer of the liquid crystal material, and a reflection state and the liquid crystal material. Corresponds to the flat state of the first floor. The color (wavelength) of the reflected light is related to the pitch of the liquid crystal material, that is, a distance in which the director (the average direction of the molecules in a layer) is twisted by 360 degrees. In the absence of an electric field, both states can be stable for a long period of time. In the light transmission state, the light of this color passes through a larger or smaller I degree, which is related to the texture (the ratio between the image point portion in the plane and the focus cone state). In addition, such a display device may have a so-called co-directional state; all molecules (directors) guide themselves to an electric field at high voltages. The incident light then | reflects through the liquid crystal material ‘when not using polarized light’ in the obstructive way. The color in the same state of the I-type display device is determined by the background light, such as an absorbing layer. 523727 V. Description of the invention (2). The display device usually only reaches this state to reach one of the two stable states. Depending on the frequency used and the voltage of the exchange pulse, the image point changes to a focusing cone or plane state. The selection time (addressing time) for writing different states is usually too long. If there is no special method, this time is 20-30 ms, which is too long for electronic news. "Dynamic drive for the display of bistable cholesterol; the rapid addressing scheme is published in SID 9 5 Digest, page 3 4 7 and explains how to make the addressing time to different states available through a preparation phase and an evolution phase. It is reduced by a special driving mode. A special object of the present invention is to reduce the selection time. For this purpose, the device of the present invention is characterized in that, in the operating state, the driving device sequentially provides the array P (P > 1) during the selection period. The electrodes use orthogonal signals. The use of orthogonal signals to drive (super) twisted nematic display devices is well known to prevent frame response phenomena. Unlike traditional single-line addressing, the number sequence is selected at the same time. This requires special attention to the incoming signal. Processing, the incoming signal must be processed mathematically to determine the correct signal of the row electrode. This frame response phenomenon occurs when the frame time and the response time of the liquid crystal material are too long in proportion. The transmission of the image point is no longer selected by many consecutive The effective voltage value is fixed, and the voltage pattern that follows appears to a greater or lesser degree. In quadrature driving, the driving signal is suitable for one side. Formula, that is, each pixel is driven several times during each frame. Transmission is still determined by the effective voltage value in the continuous selection of the number. When used in the application of the above-mentioned palm nematic liquid crystal material (electronic news 'telephone' Smart card and electronic price tag), in which, after the information is written once, the driving voltage is
第5頁 523727Page 5 523727
門尺尽个冒·货 五、發明說明(3) 移除’故在然連續選擇時,此 本發明基於一項認知,即選擇期間足夠長,俾 點)對出現信號之有效電壓值作有效反應,另—曰曰(像 像點之理想狀態及各列中對應正交信號所決定。订=士號 動之各列中,有足夠之能量以使像點交換。姓果,哈_ 置由-p因素較快寫人。p列可能在顯示 ^裝 性有關,故= 2, (y;n +vi •v ‘ (V: 其中vmi為在經同向性狀態轉移至平面狀態所需之反 送)/,壓特性曲線中跨像點之電壓,VQff為轉移至聚焦錐 體狀怨之反射(傳送)/電壓特性曲線中跨像點之電壓,v 為自平面狀態轉移至錐體狀態所需之反射(傳送)/電壓S 性曲線中跨一像點之電壓。 原則上,Vpf ’ VQn &VQff與到達最大反射之某一反射(傳 ,),例如99%,99%及1%有關,(或例如95%,95%及5%)。 貫際上’ vQn及vQff常由調整驅動電流(驅動器丨c)所決定。 由有進者,反射(傳送)/電壓特性亦與歷史有關。某些 情狀+中’選擇後到達之狀態與原始情況有關,而與像點在 〇伏時為聚焦圓錐狀態之原始狀態,與像點在〇伏時為平面 狀悲之原始狀態不同。此電在如—〇“交換(如字母數字)上 不成問題’但在影像中之迅速改變時,則成問題,因為灰 523727 五、發明說明(4) 度亦被顯示。為提供此一設施,本發明顯示裝置之較佳實 施例之特徵為,驅動裝置包含一機構,其可在選擇期間之 前,使像點之一組p列中之液晶材料至作業狀態中之(明 白)限定狀態。此限定之狀態最好為同向性狀態,但亦可 為聚焦圓錐狀態,甚至與織構(灰值)亦為可能。 至於正交函數,選擇Walsh函數,但其他函數亦屬可 能,如Haar函數,Rademacher函數或Slant函數。為防止 長時間驅動相同資訊,直流電壓之建立(例如,頁首文件 之名稱,其内容改變,或電子新聞之頁底部之π頁"字), 選擇期間中之選擇電壓之電壓整數應為0。 本發明此等及其他特性將伴隨以下之實施例予以說明。春 圖中: 圖1為本發明在二不同狀態中之光調變單元之剖面圖, 圖2為圖1中顯示裝置之反射電壓曲線特性圖形, 圖3為一像點之動態行為, 圖4為具有像點矩陣之顯示裝置之實際實施例, 圖5為一簡化矩陣之行與列信號之變化。 圖式未按比例顯示而以略圖顯示。 圖1為具有對掌向列液晶材料2之光調變單元1之剖面略 圖,該材料在備有電極5,6之二玻璃基體3,4之間。必要 時,此裝置包含定向層9,該層在基體之内壁上將液晶材 料定向。在此情況下,液晶材料有一正光學各向異性及一 ® 正介質各向異性。在圖1之例中,光調變單元有一吸收層 1 0 0Door ruler as much as possible. Fifth, the description of the invention (3) Removed 'So when continuous selection is made, this invention is based on a recognition that the selection period is long enough, 俾 point) to be valid for the effective voltage value of the signal The response, another — said (like the ideal state of the image point and the corresponding orthogonal signal in each column is determined. In the columns of the order number, there is enough energy for the image points to be exchanged. Write the person faster by the -p factor. The p column may be related to the display, so = 2, (y; n + vi • v '(V: where vmi is required to transit to the planar state via the isotropic state) (Reverse feed) //, the voltage across the image point in the pressure characteristic curve, VQff is the reflection (transmission) transferred to the focusing cone-shaped complaint / the voltage across the image point in the voltage characteristic curve, and v is the transition from the flat state to the cone The voltage across an image point in the reflection (transmission) / voltage S-curve required by the state. In principle, Vpf 'VQn & VQff and a certain reflection (transmission) that reaches the maximum reflection, such as 99%, 99% and 1%, (or for example 95%, 95%, and 5%). Traditionally, vQn and vQff are often adjusted by adjusting the drive current (driver丨 c). By the entrant, the reflection (transmission) / voltage characteristics are also related to history. In some cases, the state reached after 'selection' is related to the original situation, and it is related to the focus point at 0 volts. The original state of the state is different from the original state in which the image point is flat and sad at 0 volts. This electricity is not a problem in exchanges such as "0", but it is a problem when the image changes rapidly. Because of the gray 523727, the invention description (4) degree is also displayed. In order to provide this facility, the preferred embodiment of the display device of the present invention is characterized in that the driving device includes a mechanism that can make the image before the selection period. Point a group of liquid crystal materials in the p column to the (clear) limited state in the working state. The limited state is preferably an isotropic state, but it can also be a focused cone state, even with the texture (gray value). For the orthogonal function, the Walsh function is selected, but other functions are also possible, such as the Haar function, the Rademacher function, or the Slant function. To prevent the same information from being driven for a long time, a DC voltage is established (for example, The name of the top file, its content changes, or the π page at the bottom of the page of the electronic news), the integer voltage of the selection voltage during the selection period should be 0. These and other characteristics of the present invention will accompany the following embodiments In the spring diagram: Fig. 1 is a cross-sectional view of a light modulation unit in two different states of the present invention, Fig. 2 is a reflection voltage curve characteristic graph of the display device in Fig. 1, and Fig. 3 is a pixel-like dynamic behavior Fig. 4 is a practical embodiment of a display device with a dot matrix, and Fig. 5 is a simplified matrix row and column signal change. The figure is not shown to scale but is shown in outline. Fig. 1 is a liquid crystal with a palm nematic A schematic cross-sectional view of the light modulation unit 1 of the material 2 is located between the glass substrates 3, 4 provided with the electrodes 5, 6 bis. If necessary, the device includes an alignment layer 9 which orients the liquid crystal material on the inner wall of the substrate. In this case, the liquid crystal material has a positive optical anisotropy and a positive dielectric anisotropy. In the example of FIG. 1, the light modulation unit has an absorbing layer 1 0 0
O:\63\63657.ptd 第7頁 523727 五、發明說明(5) 〜〜…---------------------一〜^_ _ 對掌向列液晶材料2為向列液s曰 '' 對掌材料之混合物,其出現之旦曰才料與正介質各異性與 距P ;此節距p為一距離,液晶H使對掌向列結構有一節 3 6 0度。液晶分子之方向多少與美^導向器在其中扭曲 為平行)。第一穩定狀態(平面爿^肖;;之一壁垂直(某些狀況 組成(圖la)。光調變單元之厚产〜現在由螺旋線與節距? 倍,至少2倍)。 子又為節距P之數倍(例如6 平面狀態之為其可返射波長在 數)。在圖1之裝置中,選擇該液坪:· Ρ(η· ·平均折射係 距,其可反射藍光,而選擇黑色,糸=於平面結構有一節 是以所示之顯示裝置產生在黑=收月景1 0。藍色字母於 對掌向列液晶材料可擔當另—月斤、(或其他方法)上。 (圖1 b),該狀態係在電極5,6被^疋狀態為聚焦圓錐狀態 開關1 2所示)之一或更多電壓脈义值(如圖1之電壓源丨丨及 結構裂裂成數片,其為隨機方/,所激動後產生。螺旋線 (部份),但可到達吸收背景。 其中入射光不再反射 當光調變單元有高壓跨過時,、、 同向性狀態,即分子將其本身導^ ^材料為第三狀態,即 !有波長(可見光)均為透明。鱼,「向電場’光調變單元在所 ; /、•强動兩厭士 波幅),光調變單元自此狀能六 ^ 有關(期間與信號 態。 心又換至平面或距焦圓錐狀 圖2顯示圖1之像點之反射電髮 態 藍 與歷史有關。以說明方式選擇 '寸,曲線。在零電壓之;ί 光以高反射值R反射。如一朊對掌向列狀態’俾像點并 、有兒壓Vpf之有效值(β 523727 五、發明說明(6) 其中之R實際上 值)’液體改變為聚焦圓錐狀態(曲線1 為0 (背景可見)。當脈衝之有效電壓繼續增加,自vQff之反 射增加至一高值。如液體在具焦圓錐狀態時為〇伏,反射 之增加在較高之有效電壓V ’ f (曲線2 )開始,並在ν〇η時到 達高反射。在VQff-VQn之渡越區,可能有中間反射,但並非 明白限定;即對文字字母應用上並無缺點。在每一選擇 (舄入資说)’例如’(由一或多脈衝)經由同向性狀態將顯 示裝置清除,可達到曲線(1 )及(2)重合,俾V及γ可明 白的決定。V〇ff及^此例中由反射電廢 Qff on 大反射之U及99%),但必要時,寸性決定(例如,最 反射之5%及95%)。顯示裝置(或〜部^限定(例如’最大 態清除(或其他明白決定狀態,如中:可另由聚焦圓錐狀 圖3顯示一像點之動態行為,其為 改變為在t瞬間之聚焦圓錐狀態,教% ^間之^平面狀態 性狀態(主要由選擇交換脈衝之波鴨)。Ϊ2瞬間t父換至同向 成平面狀態。吾人應注意,自平高壯〜此狀悲在脈衝後變 態,所用信號之脈衝寬度必須有〜孕, 句|焦5]錐狀 取小值。在搞立- 期間像點再度變為平面狀態(圖3中 σ a之脈衝 ^ <虛線曲線)。A '史i 之操作起見,交換信號(以交流電魇山θ、 為滿思 足at;現)之^至日問 2 0 m s。為較大影像格式(電子新聞),及i、 夕應為 之應用,及在大量時(例如移動影倍 七、必而快速寫入 期間為太長 此 像,準備電子標籤), 根據本發明,在選擇期間tsel,p列_ @ p 號所區驅動。圖4顯示一顯示裝置之^由正交選擇信 之貫際實施例,該裝置O: \ 63 \ 63657.ptd Page 7 523727 V. Description of the invention (5) ~~ ...--------------------- 一 ~ ^ _ _ Palm The nematic liquid crystal material 2 is a mixture of nematic liquid s and palladium materials. The anisotropy and the distance P between the material and the positive medium appear when it appears; this pitch p is a distance. The structure has a section of 360 degrees. The orientation of the liquid crystal molecules is more or less parallel to that of the US guide. The first stable state (plane 爿 ^ Xiao; one wall is vertical (composed of some conditions (Figure la). The thickness of the light modulation unit is now ~ by at least 2 times the spiral and the pitch). 子 又It is multiples of the pitch P (for example, its planar reflection is the number of its reverberable wavelengths.) In the device of Figure 1, the liquid level is selected: · Ρ (η · · average refraction distance, which can reflect blue light , And choose black, 糸 = in the flat structure, there is a section produced by the display device shown in black = 收 月 景 1 0. Blue letters on the palm nematic liquid crystal material can serve as another-month, (or other methods) (Fig. 1b), this state is shown in the electrode 5 and 6 as shown in the focus cone state switch 12 (one or more) of one or more voltage pulse values (as shown in the voltage source of Fig. 1) and The structure is cracked into several pieces, which are random squares. They are generated after being excited. The helix (partial), but can reach the absorption background. The incident light is no longer reflected when the light modulation unit has a high-voltage crossing. Sexual state, that is, the molecule guides itself ^ ^ The material is in the third state, that is, all wavelengths (visible light) are transparent. Fish, To the electric field, the light modulation unit is at the place; /, • Strongly moving two anisotropic wave amplitudes), the light modulation unit is related to the energy state from this time (the period is related to the signal state. The heart is changed to a plane or a focal conic shape. Figure 2 The reflected electrical state of the image point shown in Figure 1 is related to history. Select 'inch, curve' for explanation. At zero voltage, the light is reflected with a high reflection value R. For example, a pair of palm nematics state And, the effective value of the child pressure Vpf (β 523727 V. Description of the invention (6) where R is actually the value) 'The liquid changes to a focused cone state (curve 1 is 0 (visible in the background). When the effective voltage of the pulse continues to increase , The reflection from vQff increases to a high value. If the liquid is 0 volts in the focal conical state, the increase in reflection starts at a higher effective voltage V'f (curve 2) and reaches a high reflection at ν〇η In the crossing area of VQff-VQn, there may be intermediate reflections, but they are not clearly limited; that is, there is no disadvantage in the application of letters and letters. In each choice (舄 入 资 说) 'for example' (by one or more pulses) By clearing the display device through the isotropic state, Lines (1) and (2) overlap, 俾 V and γ can be clearly understood. V0ff and ^ In this example, the reflected electrical waste is Qff on U and 99% of the large reflection), but if necessary, the size is determined ( For example, the most reflective 5% and 95%). Display device (or ~ part ^ limited (such as' maximum state clear (or other clearly determined state, such as: can be shown by the focus cone shape Figure 3) Behavior, which is to change to the focused conic state at t instant, and teach the state of plane state (mainly by choosing to exchange the pulse duck). Ϊ 2 instant t father changes to the same plane state. I should pay attention From the flat to the strong, this state changes after the pulse, and the pulse width of the signal used must be ~ pregnant, sentence | focus5] Take the smaller value of the cone shape. During the construction period, the image point becomes flat again (the pulse of σ a in Figure 3 ^ < the dotted curve). For the operation of A 'history i, exchange the signal (take the alternating current 魇 θ, it is full at present) ^ to the day 20 m s. According to the present invention, for larger image formats (electronic news), and i and xi should be applied, and when a large number of images (such as moving image times seven, must be fast writing period is too long, prepare electronic tags) During selection, tsel, p column _ @ p is driven by the area. FIG. 4 shows a conventional embodiment of a display device by orthogonal selection signals. The device
第9頁Page 9
523727 五、發明說明(7) 在N列22及Μ行23之交叉區有一像點之矩陣21。此裝置尚包 含一列函數產生器2 7 ’例如為一 R 〇 Μ,以產生正交信號 Fi (t)以驅動列2 2。在所謂基本時間期間,列向量被限 疋’以經由驅動2 8驅動P列之一組。列向量亦寫入暫存器 2 9内。為此一驅動模式之深入說明,請參考由τ · j .523727 V. Description of the invention (7) There is a matrix 21 of dots at the intersection of N columns 22 and M rows 23. This device also includes a column of function generators 27 'such as a ROM to generate an orthogonal signal Fi (t) to drive column 22. During the so-called base time, the column vector is limited to 疋 'to drive a group of P columns via drive 28. The column vector is also written in the register 2 9. For an in-depth description of this drive mode, please refer to τ · j.
Scheffer及B· Clifton所著”供高對比視頻率STN顯示之主 動尋址方法”,SID文摘92, 228-231頁,及Τ·Ν·Scheffer and B. Clifton, "Active Addressing Method for High Contrast Video Rate STN Display", SID Digest 92, pages 228-231, and TN ·
Ruckmongathon等人所著”供快速響應之STN LCDs之新尋址 技術π ,日本顯示器,9 2, 6 5 _ 6 8頁。 待顯:之資訊30儲存在Ν χ Μ緩衝器記憶體3丨,並以時間 》,本f位讀出作為所謂資訊向量。列23之信號係在時間 乘:緙f"兀期?與列向量及資訊向量(行向量)之有效值相 3 有效值之相乘係藉《異- 之:=貫施,之相加係將異-或〇Rs之陣列 别 ϋ至相加邏輯3 3而實。自相L 、羅統q q夕 驅動電路34,I亥電路捂二q ::加邏輯33之信號控制行 電%⑴。%路棱供列23具有(P+1)可能電壓位準之 此電壓示於圖5用以么l . &⑴,F3(t),F4⑴^次驅動四列。四正交馆號F1(t), 又貝矾(在列1及行1之你 ^ r r 。後付所示 號 c 像點為◦ f f,其他為on ),行丨兩 ,如) 仃1而要信Ruckmongathon et al. "New addressing technology for fast response STN LCDs, π, Japan Display, 9 2, 6 5 _ 6 8 pages. To be displayed: the information 30 is stored in the ΝχΜ buffer memory 3 丨, "Time", the f bit is read out as the so-called information vector. The signal of column 23 is multiplied by time: 缂 f " period? Multiplied by the effective value of the column vector and the information vector (row vector) 3 It is based on "different-of: = Guan Shi, the addition is based on the addition of the array of exclusive-or 0Rs to the addition logic 3 3 and it is true. Since phase L, Luotong qq evening drive circuit 34, I Hai circuit cover The signal of two q :: plus logic 33 controls the line power% ⑴. The voltage at the edge of the line 23 has a potential level of (P + 1). This voltage is shown in Figure 5. l & ⑴, F3 (t ), F4⑴ ^ times drive four columns. The quadrature museum number F1 (t), and also alum (you ^ rr in column 1 and row 1. Post-show number c image point is ◦ ff, others are on) , Line 丨 two, such as) 仃 1 and want to believe
523727 五、發明說明(8) I如上所述,在將其變為同向性狀態方式選擇之前,必須明 白的獲得灰值以顯示像點已清除。為此目的,像點接收一 清除或再設定信號,該信號僅顯示於圖5中之列1。為防止 直流電壓橫跨像點,選擇信號及再設定信號應以無直流信 號出現,其意義為F1在此例中並未使用。在時間(p = 3 ), 選擇第三組各列之應用時,僅選擇信號F2 (t),F3 (t),523727 V. Description of the invention (8) I As mentioned above, before changing it to the isotropic state mode selection, it is necessary to obtain the gray value clearly to show that the pixels have been cleared. For this purpose, the pixels receive a clear or reset signal, which is shown only in column 1 in FIG. 5. To prevent the DC voltage from crossing the image point, the selection signal and the reset signal should appear as no DC signal, which means that F1 is not used in this example. At time (p = 3), when the application of the third group of columns is selected, only the signals F2 (t), F3 (t) are selected,
F4 (t)存在。無直流之意義為在選擇期間中之選擇電壓之 電壓整數實質上為0。將信號圖5中之信IFj ... F4在期間上 減半,並僅在選擇期間之上半將其提供,並在選擇期間之 下半提供反相信號,於是可獲得四個無直流正交列信號。 在多個選擇信號情況下,無直流之正交信號之數目可能 以已知方式增加。在選擇期間tsel内正交信號之最小數目 為2。選擇期間tsel内正交信號之最大數目,與單元及理想 對比之特性有關。如以下所述,最大對比之p之最佳值可 被發現。以正交信號Γ\ (t),F〆t) ( 1,」=1 · · . p ),則 ^ tsel 丄JV心)6⑴士二〇因冃F4 (t) exists. The meaning of no direct current is that the voltage integer of the selection voltage during the selection period is substantially zero. The signal IFj ... F4 in the signal diagram of FIG. 5 is halved in the period, and is provided only in the upper half of the selection period, and the inverting signal is provided in the lower half of the selection period, so four DC-free positive Intersecting signals. In the case of multiple selection signals, the number of quadrature signals without DC may increase in a known manner. The minimum number of orthogonal signals in the selection period tsel is two. The maximum number of orthogonal signals in the selection period tsel is related to the characteristics of the unit and the ideal contrast. As described below, the best value of p for maximum contrast can be found. With the orthogonal signals Γ \ (t), F〆t) (1, "= 1 · ·. P), then ^ tsel 丄 JV heart) 6 ⑴ 20 冃
Uel οUel ο
因问 一行信號由P正交列信號之數學作業組成如下:As a result, the mathematical operation of one row of signals consisting of P orthogonal columns is as follows:
CC
Tp ¢7(/)二 (1)Tp ¢ 7 (/) Two (1)
第11頁 523727 五、發明說明(9) 在選擇列中一像點t壓RMS值Vp,eii而言,在選擇期間電壓 為:Page 11 523727 V. Description of the invention (9) In the selection column, the voltage RMS value Vp of an image point tp, in terms of eii, the voltage during the selection period is:
Vp,eff •j tsel — ]>!(〇-G(〇}2 Λ tsel r\ t%el tscl tsel tselVp, eff • j tsel —] >! (〇-G (〇) 2 Λ tsel r \ t% el tscl tsel tsel
IT 1 + c TpIT 1 + c Tp
Fi(i) —fX,)± ± T7〆,)} VPFi (i) —fX,) ± ± T7〆,)} VP
r2 F2+ ——(p-l)F2 P 2C77 + c2 F2 di ⑵ 行電壓由p正交列信號與正常化常數C組成。列1 (方程式 1 )而言,僅有由資料決定之特顯示之G (t)中之Fi (t)之符 號影響像點(方程式2)之RMS電壓。所有其他正交信號 土 Fj (t) ( j妾1 )有一恒定資料獨立貢獻。 由於顯示裝置被寫入一次,首先寫入之P列在顯示裝置 其他部份寫入期間,最受行信號干擾。以列1中之非選擇 像點之RMS值而言,在幀時間之其餘時間,下式 成立:r2 F2 + —— (p-1) F2 P 2C77 + c2 F2 di ⑵ The row voltage is composed of p orthogonal column signal and normalization constant C. For column 1 (equation 1), only the sign of Fi (t) in G (t), which is determined by the data, affects the RMS voltage of the image point (equation 2). All other orthogonal signals Fj (t) (j 妾 1) have a constant data independent contribution. Since the display device is written once, the P column written first is most affected by the line signal during the writing of other parts of the display device. In terms of the RMS values of the non-selected pixels in column 1, the following holds true for the rest of the frame time:
tframe - tseltframe-tsel
以具有N列之顯示裝置而言,tfl*ame = Ntsel。在第一組p列 寫入後,另一 到一干擾電壓For a display device with N columns, tfl * ame = Ntsel. After the first group of p columns is written, another to a disturbance voltage
(Ν Λ ——一 1 列食 色寫入。第一組在 1 I/7 J(N Λ-one column of food writes. The first group is at 1 I / 7 J
523727 五 、發明說明(10)523727 V. Description of Invention (10)
0 VP (V…随):i |{±F丨(〇±F2(〇±/r3(,)….土/^(,)}2ώ 選擇後第一組p列之干擾電壓最大有效值為: V: N hrl 1 l7 ί" 1 s f ——1 f iscl (尸J »r/ f{±G(/) 土厂:(〇±厂3(/)±厂4(〇} cl! ⑷ 或0 VP (V… with): i | {± F 丨 (〇 ± F2 (〇 ± / r3 (,) .... 土 / ^ (,)) 2 FREE The maximum effective value of the interference voltage of the first group p column after selection : V: N hrl 1 l7 ί " 1 sf ——1 f iscl (body J »r / f {± G (/) soil factory: (〇 ± factory 3 (/) ± factory 4 (〇) cl! ⑷ or
Kn^max = Vc^F: = 〇F 在上述之顯示敦詈 ⑸ 值應保持在閾電壓V :下動)驅動情況下,最大行電壓有效 狀態,或 pf足下以備自平面狀態渡越至聚焦圓錐Kn ^ max = Vc ^ F: = 〇F In the above display, the threshold value should be maintained at the threshold voltage V: down) Under the driving condition, the maximum row voltage is valid, or pf is enough to transition from the flat state to Focus cone
V coLeff ~ CF < Vpf 為防止以前寫入資气 ⑹ _ σ. 貝σί(α之可此(部份)板队 化唬將像點變為平面 ’Τ、*。但,亦可經由行 自方程式(5)及(2)則 一'…、圓錐狀態(0 f f )。 ,2C , l + -^ + C- •如V coLeff ~ CF < Vpf In order to prevent the previously written gas ⑹ σ. Σσί (α 的 可 此 (part of) the team bluffed the image point into a plane 'T, *. However, it is also possible to Since equations (5) and (2) are a '..., cone state (0 ff)., 2C, l +-^ + C- • such as
f2^K ' (7) ,2C 〆 1 一 7TC_f2 ^ K '(7), 2C 〆 1-7TC_
F、K 決定最大對比(及發生寫入 ⑻ 之最大數目,方程式予以重”加速因數)之疋交函數P 之條件對傳統材料言並不構別因為在方程式(8)中vpf ,c)於(Ό及(8)中,於是得 义制,其可予忽略。代入 523727 五、發明說明(11) 9\/ 〇]/ 厂坎乙(9)及νςπ:—(10)F, K determine the maximum contrast (and the maximum number of occurrences of 发生, the equation emphasizes the "acceleration factor"). The conditions of the 疋 cross function P are not structured for traditional materials because vpf in equation (8), c) is (In Ό and (8), then the system of justice was obtained, which can be ignored. Substitute 523727 V. Description of the invention (11) 9 \ / 〇] / Factory Kanyi (9) and νς:-(10)
Ay 16V2 導致,C - ,或 0厂「^厂:(12)Ay 16V2 leads to C-, or 0 factory "^ Factory: (12)
如 kn-y;A F2之最佳值在($ )及(^ )符號在方程式(7 ),( 8 )為相等符 號時發生。相加得 V二 + =2(F2 + vr:/ f//)或广;+ (V: + 〜)-L 從 (13) 將方程式(1 3 )代入方程式(1 2 ) 於是產生P之最佳值,即 /:V = 16.V,: (d): (14) 將方fe式(1 3 )代入方程式(6 )中之相等符號,產生一正常For example, kn-y; the best value of A F2 occurs when the ($) and (^) symbols are in equations (7) and (8) are equal symbols. Add V + + 2 (F2 + vr: / f //) or wide; + (V: + ~) -L Substitute equation (1 3) into equation (1 2) from (13) and produce P of The best value, that is, /: V = 16.V ,: (d): (14) Substituting the equation fe (1 3) into the equal sign in equation (6), produces a normal
化常數C c (15) 時最^ 代表在P列在選擇期間kel以正交信號同時驅動 足夠;即需要卜I、夕赃Ϊ。一較在下應用時亦為 如丨· 5至2倍)為乂大^ ·、、·~動電子。以正交信號驅動較IW(例 比為代價。寫入目之各列亦為可能,但此舉可能以對 例1 :選擇二,之大巾田加速在Ρ〉1 / 2 PQPt時達到。 用。在圖2曲線間為50 ms供雙穩定膽留醇向列LCD之When the constant C c (15) is the highest, it means that it is sufficient to drive kel with orthogonal signals at the same time during the selection period in column P; that is, I and I are needed. It is also 5 to 2 times when it is used in the following applications.) It is a large electron. Orthogonal signal is used to drive the IW (example ratio at the cost. It is also possible to write the columns of the target, but this may be achieved in the case of the first example: the second choice, the acceleration of P.PtPt of 1/2 PQPt. For 50 ms between the curves in Figure 2 for the bistable cholesteric nematic LCD
同電壓之相關值為VQff = 25 V,v n = 29 523727 五、發明說明(12) V,對比為6. 4。此外,Vpf = 6 V,導致ρ_ = 8· 6,F = 26. 4 V ,及C = Ο . 2 3。雙穩定膽留醇向列L C D於是可以較快之速度 寫入,加速因數約為9 (最佳對比為8 )。在選擇脈衝之期間 為50 ms時,在500 ms之幀時間内可寫入90(80)列而非10 列。 例2 :選擇期間為1 0 m s供相同雙穩定膽甾醇向列L C D。 亦以對比為代價,因為在圖2中之電壓反射曲線改變為較 短之選擇期間,及並未到達反射值0 (圖2中之曲線b )。圖2 中之不同電壓之相關值為VQf f二2 8 V,VQn = 3 2 V,對比僅為 3. 0。此外,Vpf = 7 V,因此導致 popt = 11.6 ,F = 29.3 V, C二Ο . 2 4。雙穩定膽甾醇向列L C D可以較快速度寫入,其加 _ 速因數約為1 2。選擇脈衝為1 0 ms之期間時,在一幀期間 如5 0 m s内可寫入6 0歹1j ,而非5歹1J 。 本發明並不限於所示之舉例,其他變化亦屬可能。例 如,並非必須利用膽语醇向列液晶材料之反射特性。如選 擇適當之厚度及材料,膽留醇向列液晶材料中將有極化之 旋轉。透射或反射顯示器裝置可由偏光器方式及適當之偵 測裝置實現。正交信號可由不同方式產生。 如首段所述,利用一準備階段及演進階段,以在此等階 段間之實際選擇期間,經由特殊驅動模式,可達到不同狀 態需要之尋址時間。單獨使用準備階段及演進階段亦屬可 行。在此情況下,基於膽甾醇向列液晶效益之顯示裝置, _ 以此方式驅動,在選擇期間該裝置可由正交信號所控制。 如上所述,本發明可應用於一具有許多狀態之光電材料The correlation value of the same voltage is VQff = 25 V, v n = 29 523727 V. Description of the invention (12) V, the contrast is 6.4. In addition, Vpf = 6 V, resulting in ρ_ = 8.6, F = 26. 4 V, and C = 0. 2 3. Bistable cholesteric nematic L CD can then be written faster, with an acceleration factor of approximately 9 (optimal contrast is 8). When the duration of the selection pulse is 50 ms, 90 (80) columns can be written instead of 10 columns within a frame time of 500 ms. Example 2: The selection period is 10 ms for the same bistable cholesterol nematic L C D. It also comes at the cost of comparison, because the voltage reflection curve in Figure 2 was changed to a shorter selection period, and the reflection value 0 was not reached (curve b in Figure 2). The correlation value of the different voltages in Figure 2 is VQf f = 2 8 V, VQn = 3 2 V, and the comparison is only 3.0. In addition, Vpf = 7 V, which results in popt = 11.6, F = 29.3 V, and C = 0.24. The bistable cholesterol nematic L C D can be written faster, and its acceleration factor is about 12. When the pulse is selected as a period of 10 ms, 60 歹 1j can be written instead of 5 在 一 1J in a frame period such as 50 ms. The invention is not limited to the examples shown, other variations are also possible. For example, it is not necessary to take advantage of the reflective properties of the bileuronic nematic liquid crystal material. If an appropriate thickness and material is selected, the bileuronic liquid crystal material will have a polarized rotation. The transmissive or reflective display device can be implemented by a polarizer method and a suitable detection device. Quadrature signals can be generated in different ways. As mentioned in the first paragraph, a preparation phase and an evolution phase are utilized to achieve the addressing time required for different states through special driving modes during the actual selection period between these phases. Separate preparation and evolution phases are also possible. In this case, a display device based on the benefits of cholesteric nematic liquid crystal is driven in this way, and the device can be controlled by an orthogonal signal during selection. As described above, the present invention is applicable to a photovoltaic material having many states
O:\63\63657.ptd 第15頁 523727 五、發明說明(13) 層之顯示裝置,至少有二狀態在無電場時為穩定的,光電 材料在尋址期間由RMS信號驅動,二狀態之反射(透射)電 壓特性曲線顯示一閾值;另一特性曲線不需具有變化,其 與圖2中顯示之對掌向列材料之曲線相同,但應在至少二 點重合。 本發明在於具有每一新穎特性,並將各特性加以組合。O: \ 63 \ 63657.ptd Page 15 523727 V. Description of the Invention The display device of the (13) layer has at least two states that are stable when there is no electric field. The optoelectronic material is driven by the RMS signal during the addressing period. The reflection (transmission) voltage characteristic curve shows a threshold value; the other characteristic curve does not need to have a change, which is the same as the curve of the palm nematic material shown in FIG. 2, but should coincide at at least two points. The invention consists in having each novel characteristic and combining each characteristic.
第16頁Page 16
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TW089106409A TW523727B (en) | 1999-05-27 | 2000-04-07 | Display device |
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EP (1) | EP1099212A1 (en) |
JP (1) | JP2003500707A (en) |
KR (1) | KR20010102905A (en) |
CN (1) | CN1154001C (en) |
TW (1) | TW523727B (en) |
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